Abstract

Formaldehyde and VOC emissions from wood-based panels are recognized as one of the major causes of poor indoor air quality. These emissions may be strongly influenced by the raw materials and manufacturing techniques of the panels. However, there is very little published information regarding this issue. In this study we determine and compare formaldehyde and VOC emissions, including their species and content, at different manufacturing stages of wood-based panels such as urea-formaldehyde resin, wood chip, wood fiber after resin application, medium density fiberboard, and phenol-formaldehyde resin. We found that: (1) in total, 34 individual VOCs were identified, but none of them were in all the specimens, indicating considerable VOC species changes during the manufacturing process; (2) the formaldehyde in wood-based panels came primarily from urea-formaldehyde resin, and there existed a linear relationship between the formaldehyde content in resins and formaldehyde specific emission rate from wood-base panels; (3) VOCs in wood-based panels mainly came from the wood chips; (4) the drying and hot-pressing techniques were helpful in reducing the formaldehyde and VOC emissions from wood-based panels. Some suggestions are presented for the control of formaldehyde and VOC emissions from wood-based panels during the manufacturing process.

Highlights

► We determine compound species and content at panel’s different manufacturing stages. ► Considerable VOC species changes occur during panel’s manufacturing process. ► Formaldehyde in panels comes primarily from the urea-formaldehyde resin. ► VOCs in panels mainly come from the wood chips. ► Drying and hot-pressing are helpful in reducing compound emissions from panels.